PLATE CHARACTERISTICS
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1 PLATE CHARACTERISTICS In these calculations it is important to work with points equidistant on each side of Q to reduce to a minimum errors due to curvature. The plate characteristics of a pentode for one fixed screen voltage are shown in Fig Owing to the high plate resistance of a pentode the slope of the portion of the curves above the " knee " is frequently so flat that it is necessary to draw extended tangents to the curves as at A, B and Q. A horizontal line may be drawn through Q to intersect the tangents at A and B at points C and D. As with a triode, points A and B are vertically above and below Q. The mutual conductance is AB (4.1 ma) divided by 4 volts change of grid bias, that is ma/ or 1025 micromhos. The amplification factor is the change of plate voltage (CD = 447 volts) divided by the change of grid voltage (4 volts) or The plate resistance is EK/QK, i.e. 180/ or ohms. The plate characteristics of a beam tetrode are somewhat similar to those of a pentode except that the " knee " tends to be more pronounced at high values of plate current. The plate and screen characteristics of a pentode are shown in Fig. 2.4, from which it will be seen that the total cathode (plate + screen) current for any fixed grid bias is nearly constant, except at low plate voltages, and that the plate current increases at the expense of the screen, and vice versa. A pentode is frequently described as a «constant-current device," but the plate current is not so nearly constant as the combination of plate and screen currents, with fixed grid bias and screen voltage. Fig. 24 Plate and screen characteristics for a pentode, with fixed screen and grid voltages, showing also the cathode current curve which is the sum of the plate and screen currents at all plate voltages. Mutual characteristics The Mutual Characteristics may be drawn by maintaining the plate voltage constant, and varying the grid from the extreme negative to the extreme positive voltage desired. For any particular plate voltage, there is a negative grid voltage at which the plate current becomes zero ; this is called the point of plate current cut-off, and any increase of grid voltage in the negative direction has ho effect on the
2 plate current, which remains zero. If the mutual characteristic were perfectly straight, the point of plate current cutoff would be at a grid voltage of Eb / µ ; in reality, it occurs at a point slightly more negative, owing to the curved foot of the characteristic. Fig.2.7 The Mutual Characteristic Family for a typical pentode with constant plate voltage, each curve applies to a different value of fixed screen voltage, and the corresponding screen current characteristics in Fig The resemblance between the shapes of the plate and screen characteristics is very close, and there is an almost constant ratio between the plate and screen currents along each curve. The plate voltage of pentodes having high plate resistance has only a very minor effect on the plate current, provided that it does not come below the screen voltage. The use of valve conversion factors It is important to remember that the conversion factors may only be used when all the voltages (grid, screen and plate) are changed simultaneously by the same factor. If it is required to make any other adjustments, these may be carried out before or after using conversion factors, by following the method given under (iii) below. Conversion factors may be used on any type of valve whether triode, pentode or beam tetrode, and in any class of operation whether class A, class AB1, class AB2 or class C. The use of conversion factors is necessarily an approximation, so that errors will occur which become progressively greater as the voltage factor becomes greater. In general it may be taken that voltage conversion factors down to about 0*7 and up to about 1*5 times will be approximately correct. When the voltage factors are extended beyond these limits down to 0-5 and up to 20, the accuracy becomes considerably less, and any further extension becomes only a rough indication. The example given below is a straightforward case of a pentode valve whose characteristics are given for certain voltages and which it is desired to operate at a lower plate voltage. Plate and screen voltage 250 volts Control grid voltage -15 volts Plate current 30 ma Screen current 6 ma Mutual conductance 2,000 /µmhos Power Output 2-5 watts. It is required to determine the optimum operating conditions for a plate voltage of 200 olts. The oltage Conversion Factor (Fe) = 200/250 = 0.8 The new screen voltage will be 0.8 x 250 = 200 volts. The new control grid voltage will be - (0.8 x 15) = - 12 volts.
3 Reference to the chart then gives the following : Current Conversion Factor (Fi) 0.72 Mutual Conductance Conversion Factor (Fgm) 0.89 Power Output Conversion Factor (Fp) 0.57 The new plate current will be 0.72 x 30 = 21.6 ma. The new screen current will be 0.72 x 6 = 4.3 ma. The new mutual conductance will be 0.89 x 2000 = 1780 µmhos. The new power output will be 0.57 X 2.5 = 1.42 watts. There are two effects not taken into account by conversion factors. The first is contact potential, but its effects only become serious for small grid bias voltages. The second is secondary emission, which occurs with the old type of tetrode at low plate voltages ; in such a case the use of conversion factors should be limited to regions of the plate characteristic in which the plate voltage is greater than the screen voltage. With beam power amplifiers the region of both low plate currents and low plate voltages should also be avoided for similar reasons. Greater accuracy in the use of conversion factors over a wide range of screen voltages may be obtained, if curves are available for zero bias at a number of different screen voltages as in Fig When the plate, screen, and grid voltages of a pentode or beam power amplifier are multiplied by the same voltage conversion factor, the ratio of the plate current at a given grid bias to that at zero bias does not change. In order to convert a given family of plate characteristics to a new screen voltage condition, it is therefore only necessary to have a zerobias plate characteristic for the screen voltage of interest. Example: Suppose that the family of plate characteristics shown in Fig which obtains for a screen voltage of 250 volts, is to be converted for a screen voltage of 300 volts. The zero-bias plate characteristic for Ec2 = 300 volts, which is shown in Fig is replotted as the upper curve in Fig Since all bias values shown in Fig must be multiplied by 300/250 = 1.2, corresponding plate characteristics for the new family obtain for bias values that are 20 per cent, higher than those shown in Fig Consider the conversion of -10 volt characteristic of Fig At a plate voltage Eb of 250 volts in Fig AB/AC = 100/187 = On the new characteristic in Fig which corresponds to a bias of -12 volts, A'B'/A'C' must also equal at Eb = 300 volts. Therefore, A'B' = x A'C'. From the given zero-bias characteristic of Fig A'C' = 244 at Eb = 300 volts ; hence A'B' = 131 milliamperes. At Eb = 200 volts in Fig DE/DF = 98/183 = Therefore, at Eb = 200 x 1.2 = 240 volts in Fig. 2.35, D'E' = x 238 = 127 milliamperes. This process is repeated for a number of plate voltages and a smooth curve is drawn through the points on the new characteristic.
4 The factor can be used for the -10 volt characteristic at plate voltages greater than that at which the knee on the zero-bias characteristic of Fig occurs; for plate voltages in the immediate region of the knee, a new factor should be determined for each point. The plate characteristics of Fig should not be converted to the left of the dashed line of Fig because of space-charge effects. This limitation is not a serious one, however, because the region over which the valve usually operates can be converted with sufficient accuracy for most applications. The converted plate characteristic of Fig for Ec1= -30 volts was obtained in a similar manner to that for Ec1 = - 12 volts. The curves of Fig were checked under dynamic conditions by means of a cathode-ray tube and the dotted portions show regions where measured results departed from calculated results. The calculation of valve characteristics other than those published It is frequently desired to make minor modifications in the operating conditions of a valve such as by a slight increase or decrease of the plate voltage, change in grid bias or load resistance. It is proposed to describe the effects which these changes will have on the other characteristics of the valve. (a) In the absence of valve curves Pentode or beam power amplifier Use conversion factors to adjust the screen voltage to its new value, and apply the correct conversion factors to all other characteristics ; then adjust the plate voltage to the desired new value by the method given below ; then adjust the grid bias to its desired new value, and finally adjust the load resistance. (b) When valve curves are available Pentode or beam power amplifier : If curves are available for the published value of screen voltage, use the method below to obtain the characteristics for a plate voltage such that, when conversion factors are applied, the plate voltage is the desired value. For example, if curves and characteristics are available for plate and screen voltages of 250 volts, and it is desired to determine the characteristics for a plate voltage of 360 volts and screen voltage of 300 volts : firstly determine the characteristics for a plate voltage of 300 and screen voltage of 250 ; then apply voltage conversion factors of 1.2 to the plate, screen and grid voltages so as to provide the desired conditions. If curves are available for the new value of screen voltage, use conversion factors to bring the screen voltage to the desired value, then apply the method below to adjust the plate voltage, load resistance and grid bias. Effect of Change of Plate oltages of Pentodes and Beam Power Amplifiers (a) On plate current The plate current of a pentode or beam power valve is approximately constant over a wide range of plate voltages, provided that the plate voltage is maintained above the " knee " of the curve. The increase of plate current caused by an increase in plate voltage from Ebl to Eb2 is given by the expression; In many cases the plate characteristic curves are available, and the change in plate current may be read from the curves. (b) On screen current In the case of both pentodes and beam power valves the total cathode current (i.e., plate plus screen currents) is approximately constant over a wide range of plate voltages (see Fig. 2.4). The increase in plate current from Eb1 to Eb2 is approximately equal to the decrease in screen current over the same range. (c) On load resistance and power output The plate characteristics of a typical power pentode are shown in Fig in which Ib1 is the " published " plate current at plate voltage Eb1 and grid bias -Ec1. The loadline MPJ swings up to Imax at Ec = 0 and down to Imin at 2Ec1, the assumption being made that the 2Ec1 curve is straight and horizontal over the range of plate voltages in which we are interested. If the plate voltage is increased to Eb2 the new loadline will be MP'H, the point M being common to both, since it is at the knee of the characteristic. The quiescent operating point P' is at a higher plate current than P, the difference being Ib
5 Since the power output is proportional to the area of the triangle under the loadline, it is also proportional to the value of the load resistance, all triangles having ML as a common side. It may readily be shown that And Therefore which is also the ratio of the output powers, If Ib2 = Ib1 or the rise of plate current is neglected as an approximation, then As an example, apply this to type 66-GT under the following conditions- Plate voltage Screen voltage Grid voltage Load resistance Plate current (Ib1) Peak plate current (Imax) Min. plate current (Imin) Min. plate voltage (Emin) Power output Using the equation above; whence RL' = 1.26 x 5000 = 6300 ohms. Published Condition * 8* *from curve. Desired Condition (see below) 48* 90* 8* 35 (see below) ohms ma ma ma W
6 The increase of power output is in proportion to the increase in load resistance, i.e. Pa = 4.5 x 1.26 = 5.66 watts. This method is remarkably accurate when there is very small rectification in the plate circuit, as is usually the case with power pentodes. With beam power amplifiers of the 6L6 and 807 class, in which the rectification is considerable (strong second harmonic component), the " corrected " loadline should be used as a basis, and the values of Imax Ib1 and Emin should be those corresponding to the corrected loadline. If the rise in plate current Ib is considerable, the point P' will be above the centre point of the loadline MH, and there will be an appreciable amount of second harmonic distortion; this may be reduced to zero (if desired) by increasing the load resistance slightly.
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